PNNL researchers are expanding knowledge of
fundamental atmospheric processes, developing state - of - the - art modeling capabilities, and improving understanding of how human and natural systems interact.
Not exact matches
I am excited about our results because they open a new window on very
fundamental processes in brown dwarfs (
atmospheric circulation, heat exchanges, and cloud formation) and, at the same time, they also explain a number of past observations that puzzled brown dwarf experts.
«Our climate simulations, using a simplified three - dimensional climate model to solve the
fundamental equations for conservation of water,
atmospheric mass, energy, momentum and the ideal gas law, but stripped to basic radiative, convective and dynamical
processes, finds upturns in climate sensitivity at the same forcings as found with a more complex global climate model»
Our climate simulations, using a simplified three - dimensional climate model to solve the
fundamental equations for conservation of water,
atmospheric mass, energy, momentum and the ideal gas law, but stripped to basic radiative, convective and dynamical
processes, finds upturns in climate sensitivity at the same forcings as found with a more complex global climate model [66].
The result is not determined by claims on the existence of chaos in
atmospheric or ocean
processes as
fundamental claims.